Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01275 (glucagon)
 26,492 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mammalian pregnancy is characterized by progressive hyperinsulinaemia, raised plasma lipids and increased vulnerability to ketosis after food deprivation. The present investigations were performed to assess the role of two placental steroids, oestradiol and progesterone, in the development of these changes, since plasma titres of these hormones progressively increase during human gestation. In both human subjects and adult female rats it was demonstrated that these two steroids, separately or in combination, augment plasma insulin concentration in vivo, cause hypertrophy of pancreatic islets and promote exaggerated secretion of insulin, but not glucagon, by pancreatic islets in vitro. Hypertriglyceridaemia induced by oestrogen alone or combined with progesterone was associated with increased splanchnic production of triglyceride as well as altered tissue lipoprotein lipase (EC 3.1.1.34) and circulating apoproteins that influence activity of this enzyme. The combined regimen also increased hepatic glycogen storage and suppressed gluconeogenesis in vivo in the rat while accelerating the onset of ketosis during starvation in human subjects and in the animal model. Oestradiol and progesterone appear to effect metabolic changes in nonpregnant animals and human subjects that simulate maternal adaptations to advancing gestation, including altered endocrine pancreatic function, triglyceride metabolism and metabolic fuel storage and mobilization.
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PMID:The influence of hormonal changes of pregnancy on maternal metabolism. 37 20

The effects of hormones and cytokines on angiotensinogen production were studied in primary cultured rat hepatocytes. The basal secretion of angiotensinogen decreased during culture. The addition of dexamethasone and (Bu)2cAMP completely prevented this decrease. Angiotensinogen secretion by freshly plated hepatocytes was slightly increased in response to dexamethasone, but after 24 h in culture, hepatocytes no longer responded to dexamethasone alone. When hepatocytes were treated with (Bu)2cAMP, glucagon, or forskolin, angiotensinogen secretion increased in response to dexamethasone in a concentration-dependent manner. 17 beta-Estradiol and T3 failed to stimulate angiotensinogen secretion in either the presence or absence of (Bu)2cAMP. Interleukin-6 (IL-6) exhibited a stimulatory activity on angiotensinogen secretion, which was dependent on the presence of dexamethasone, whereas IL-1 and tumor necrosis factor had no effect in either the presence or absence of dexamethasone and/or (Bu)2cAMP. Unlike primary cultured hepatocytes, angiotensinogen secretion by rat hepatoma H4IIEC3 cells increased in response to dexamethasone alone. This increase was not enhanced by (Bu)2cAMP, but was enhanced by IL-6. Thus, in primary cultures of rat hepatocytes, neither glucocorticoid, cAMP, nor IL-6 alone stimulated angiotensinogen production, but a combination of glucocorticoid and cAMP or of glucocorticoid and IL-6 exhibited a stimulatory activity on angiotensinogen production. These results suggest that angiotensinogen production in the liver is synergistically regulated by these factors, whereas the hepatoma cell line H4IIEC3 lacks the regulatory mechanism of cAMP on glucocorticoid-induced angiotensinogen production.
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PMID:Stimulation of angiotensinogen production in primary cultures of rat hepatocytes by glucocorticoid, cyclic adenosine 3',5'-monophosphate, and interleukin-6. 131 Dec 38

Although early work implicated PRL as the pituitary factor inducing rat hepatic PRL receptors, recent studies indicated that GH, not PRL, was responsible. The roles for these two hormones were evaluated on rat hepatocytes cultured in serum-free medium supplemented with insulin (1 microgram/ml), epidermal growth factor EGF (25 ng/ml), glucagon (500 ng/ml), cholera toxin (2 ng/ml), hydrocortisone (10(-8) M), and transferrin (1 microgram/ml) and changed daily. Ovine (o) PRL, bovine (b) GH, or human (h) GH were introduced after 2-4 days of culture, and PRL receptors were measured by determining [125I]hGH binding in the presence and absence of excess oPRL in a total particulate fraction pretreated with 3 M MgCl2. The specific binding of hGH (% per 100 micrograms protein) decreased by 8- to 10-fold (female, 17.9 +/- 0.2% to 1.5%; male, 7.0 +/- 0.1% to 0.7%) after 3 days in culture. When added after 3 days, hGH induced PRL receptors in both female and male cells with the effect being more gradual in the latter. Induction occurred with 10 ng/ml hGH and was maximal [11- to 13-fold control] at 250-1000 ng/ml. bGH and oPRL also induced PRL receptors with maximal levels attained at 250-500 ng/ml oPRL (3- to 4-fold control). The combined addition of oPRL (300 ng/ml) and bGH (300 ng/ml) yielded levels of induction comparable to that seen with hGH. Although hormone treatment restored PRL receptor levels to those seen in male rats, the much higher levels of female rats were not attained. Treatment of hepatocytes with hGH, bGH, or oPRL affected neither cell number (through 10 days of culture) nor PRL receptor affinity. At supramaximal doses hGH, PRL, and bGH down-regulated PRL receptors, but this was particularly noticeable for oPRL and hGH. 17 beta-Estradiol and testosterone added to male and female hepatocytes simultaneously with hGH had little or no effect on receptor induction. We conclude that hepatic PRL receptors are induced by both PRL and GH, each acting through its own receptor. The failure to restore receptor levels to those seen in female rats attests to the importance of other modulators. This dual regulation of the PRL receptor explains the unusual potency of hGH which binds to both PRL and GH receptors.
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PMID:Prolactin (PRL) receptor induction in cultured rat hepatocytes: dual regulation by PRL and growth hormone. 334 48

A dose-dependent increase in body length and weight can be induced in Snell dwarf mice by human, porcine and bovine growth hormones, ovine prolactin, bovine TSH, T4 and T3, and to a lesser extent by insulin. In contrast, porcine FSH, equine LH, testosterone, oestradiol and glucagon influenced neither body length nor weight. Beside body length and weight, the weight of many organs is stimulated by hormonal treatment. GH, T4 and T3 have a rather similar spectrum of effects, with exceptions for the skinfold and epididymal fat-pads. LH had no effect, but in contrast FSH had a strong effect on the seminal vesicles and a less pronounced one on the testis. Oestradiol induced a marked enlargement of the uterus, whereas testosterone increased the weights of the kidneys and seminal vesicles. The main action of insulin is probably localized on body fat. Glucagon, however, did not stimulate organ growth. These data illustrate again the complexity of hormonal regulation of growth.
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PMID:The effects of pituitary, thyroid, pancreatic and sexual hormones on body length and weight and organ weights of Snell dwarf mice. 672 29

This study examines the effects of ovarian hormones on the glycaemic actions of insulin, glucagon and epinephrine. Ovariectomized adult female mice were treated with replacement doses of oestradiol, progesterone, both hormones combined or vehicle only for 15 weeks. Compared with intact control mice, ovariectomy did not significantly alter insulin-induced hypoglycaemia. However, treatment with oestradiol or progesterone alone, but not in combination, increased the hypoglycaemic action of insulin. The hyperglycaemic effect of glucagon and epinephrine was increased by ovariectomy and reduced by the ovarian hormone treatments. The results indicate that oestradiol and progesterone individually synergize the hypoglycaemic action of insulin, but mutually antagonize each other in this respect. Oestradiol and progesterone, individually and in combination, appear to suppress the glycogenolytic action of glucagon and epinephrine.
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PMID:Role of ovarian hormones in the long-term control of glucose homeostasis. Interaction with insulin, glucagon and epinephrine. 702 81

Significant increases in basal, and glucagon and fluoride stimulated adenylate cyclase activity were observed in liver plasma membranes of hypophysectomized rats compared to normal adult and weanling rats. The fluoride stimulated adenylate cyclase activity was 2-3 fold greater in the membranes from hypophysectomized animals while the glucagon stimulated activity was 5-7 fold greater, and the basal activity was approximately double that of membranes from normal adult animals. Administration of growth hormone to hypophysectomized rats by an intramuscular or intravenous route decreased adenylate cyclase activity to levels equivalent to those in normal adult rats. Estradiol and thyroxine replacement did not alter the adenylate cyclase activity of the membranes from hypophysectomized animals. The fluoride or epinephrine stimulated adenylate cyclase activity of rat diaphragm homogenates was not affected by hypophysectomy.
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PMID:In vivo effect of human growth hormone on hepatic adenylate cyclase activity. 726 31

Estradiol decreases meal size, food intake, and body weight in female rats. To investigate whether these effects of estradiol involve a change in the sensitivity of the signaling pathway through which pancreatic glucagon released during meals contributes to meal termination (satiation), glucagon or glucagon antibodies were infused via the hepatic portal vein in ovariectomized rats that were chronically treated with estradiol benzoate (2 microg/day sc) or vehicle alone (100 microl sesame oil). Infusions began at 1 h after dark onset, as rats were refed after 7 h of food deprivation. Glucagon (3 microg/min for 30 min) decreased feeding during the initial 45 min of food access in both groups of rats, but the inhibition was significantly greater in estradiol- than in oil-treated rats. Similarly, antagonism of endogenous glucagon by infusion of glucagon antibodies (a dose neutralizing 3 ng of glucagon in vitro during the first 3 min of refeeding) increased feeding significantly more in estradiol- than in oil-treated rats. These data indicate that an increase in the activity of the endogenous glucagon satiation-signaling pathway may be part of the mechanism for estradiol's inhibitory effect on feeding.
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PMID:Estradiol increases glucagon's satiating potency in ovariectomized rats. 1155 38

17beta-Estradiol elicits a rapid opposite effect on [Ca2+]i in alpha- and beta-cells within intact islets of Langerhans. In beta-cells, physiological concentrations of the gonadal hormone decreases KATP channel activity in synergy with glucose, leading to a membrane depolarization that opens voltage-gated Ca2+ channels, potentiating Ca2+ signals. As a consequence insulin release is enhanced and transcription factor CREB is activated in a Ca(2+)-dependent manner. In glucagon-containing alpha-cells, 17beta-estradiol provokes the abolishment of Ca2+ oscillations generated by low glucose, a situation that should decrease glucagon release. In both types of cells the second messenger involved is cGMP. The estrogen receptor involved is located in the plasma membrane and has a pharmacological profile unrelated to classical estrogen receptors ERalpha and ERbeta. For that reason, it has been named non-classical membrane estrogen receptor (ncmER). Although the physiological roles of this receptor are still unknown, it may be implicated in the responses of the endocrine pancreas to the physiological and pathological changes of 17beta-estradiol.
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PMID:Estrogen and xenoestrogen actions on endocrine pancreas: from ion channel modulation to activation of nuclear function. 1528 65

In rats and humans estradiol attenuates neuroendocrine responses to hypoglycemia. Since neuroendocrine responses to hypoglycemia are mediated by hypothalamic neurons, we assessed if estradiol attenuates hypoglycemia-induced gene expression in the hypothalamus in female ovariectomized mice. As expected, estradiol-implanted ovariectomized mice exhibited increased plasma estradiol, increased uterine weight, decreased body weight, decreased visceral adiposity, and enhanced glucose tolerance with decreased plasma insulin. Estradiol-implanted mice exhibited attenuated hypoglycemia-induced gene expression of both glucose transporter 1 (Glut1) and inhibitor of kappa beta signaling (IkappaB) in the hypothalamus but not in the liver. Estradiol also attenuated hypoglycemia-induced plasma glucagon, pituitary proopiomelanocortin (POMC), and adrenal c-fos, consistent with impaired counterregulatory responses to hypoglycemia. In addition, estradiol inhibited hypothalamic expression of carnitine palmitoyltransferase (CPT1a and CPT1c) and pyruvate dehydrogenase kinase 4 (PDK4), effects that would be expected to enhance the accumulation of long-chain fatty acids and glycolysis. Taken together, these findings suggest hypothalamic mechanisms mediating attenuation of hypoglycemia-induced neuroendocrine responses.
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PMID:Estradiol impairs hypothalamic molecular responses to hypoglycemia. 1944 9

Oestradiol regulates basal food intake and glucagon and corticosterone secretion, but its influence on these responses to acute and recurring hypoglycaemia remains unclear. The present study utilised an experimental model for repeated intermediate-acting insulin-induced hypoglycaemia that replicates the route of delivery, frequency of administration, and duration of insulin action in the clinical setting. Groups of ovariectomised (OVX) rats were implanted with s.c. capsules containing oestradiol benzoate (EB) or oil, and injected with one or four doses of Humulin neutral protamine Hagedorn (HN), on as many days, or diluent alone. Baseline feeding followed divergent trends in EB- versus oil-implanted animals over a 9-h period after final injections. Recurring HN-induced hypoglycaemia resulted in significantly greater baseline-corrected food intake in OVX + EB and OVX + oil groups, relative to acute hypoglycaemic hyperphagia. Although oestradiol did not modify net food consumption after single or serial HN doses, EB replacement maintained uniform feeding over time in each treatment paradigm. Baseline glucagon and corticosterone secretion was higher in EB- versus oil-treated OVX rats. Oestradiol prolonged acute hypoglycaemic glucagonemia, and increased the magnitude, but shortened the duration, of glucagon secretion during recurring hypoglycaemia. OVX + oil rats responded to both acute and recurring hypoglycaemia with elevated corticosterone secretion at a single time point, which was advanced from +6 to +4 h during recurrent insulin-induced hypoglycemia, whereas OVX + EB animals exhibited increased plasma hormone levels at both +4 and +6 h in response to each paradigm. Area-under-the curve analyses showed that total glucagon and corticosterone release was greater in EB- versus oil-implanted rats after both single and serial dosing with HN. These results demonstrate that repeated HN administration increases food intake in female rats via oestrogen-independent mechanisms, but that oestradiol preserves temporal patterns of hypoglycaemic hyperphagia. The data also reveal that normo- and hypoglyacemic glucagon and corticosterone secretion are enhanced in the presence of oestrogen. Further studies are necessary to identify the sites and cellular substrates that are responsible for this hormonal regulation of behavioural and endocrine responses to prolonged hypoglycaemia.
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PMID:Adaptation of feeding and counter-regulatory hormone responses to intermediate insulin-induced hypoglycaemia in the ovariectomised female rat: effects of oestradiol. 1950 Feb 28


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